JPH0597131A - External packaging system for packaged blood analysis element - Google Patents

Abstract

PURPOSE:To provide an external packaging system for a packaged blood analysis element, by which the generation of suction error is prevented from happening, a packaged blood analysis element is stably inserted in a carton while being stacked, and the influence of heat is not received in a process in which the carton is sealed by heat-bonding while the operation of the system is stopped. CONSTITUTION:A suction drum 11 rotates at a packaged blood analysis element take- out part 10, and by the rotation of the suction drum, a packaged blood analysis element being doubly packaged by moistureproof bags, which is placed at a feeding part 12, is taken out from the lowest stage by being drawn by suction, and stacked to a specified quantity, and is carried to a carton inserting part 14 by a carrying part 13. A direction is fed to the carton inserting part 14 from a direction feeding part 16, and the packaged blood analysis element is banded by this direction, and inserted in a carton. This carton is carried to a heat-bonding part 17, and sealed by heat- bonding. When an abnormality of the system is detected at this heat-bonding part 17, the operation is stopped, and the means to seal the carton by heat-bonding is retracted to a specified position.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an exterior system for a packaged blood analysis element used for chemically analyzing whether or not a specific component is contained in blood or its content.

[0002]

2. Description of the Related Art Generally, a dry type blood analysis element is used to measure the reflection density by dropping blood and chemically analyze the presence or absence of a specific component in the blood or the content thereof. .. Therefore, in particular, the blood analysis element is packaged in a moisture-proof bag so as not to be damaged and is not affected by humidity, and the packaged blood analysis element is taken out from the supply unit to a predetermined number. The stacked blood analysis elements are stacked and stored in a carton, and the carton is sealed and shipped as a product to a hospital or the like.

[0003]

[Problems to be Solved by the Invention] By the way, with a moisture-proof bag,
The packed blood analysis elements that are continuously packed may be taken out from the supply unit by the rotation of the adsorption drum and stacked in a predetermined number, and the stacked packed blood analysis elements may be housed in a carton and sealed. In this case, in particular, the packaged blood analysis element which is packaged in double is placed on the guide so as to maintain the posture and is adsorbed to the rotating adsorption drum. When the central perforated portion is adsorbed, a concave portion may be formed and air leakage may occur, resulting in unstable extraction of the liquid analysis element.

In some cases, the packaged blood analysis elements which are packaged in double in the moisture-proof bag are stacked, and the stacked packaged blood analysis elements are stored in a carton together with the statement. In addition to the packaged blood analysis element that is easily broken,
Noh books must also be stored at the same time, so it is easy for them to get in the way and collapse.

Further, in the packaging system of the packaged blood analysis element, when the system abnormality is detected, the system operation is stopped so that the system operates normally. When the system operation stops, the carton is heated. In the process of adhering and sealing, it is necessary to prevent the carton from being affected by heat.

The present invention has been made in view of the above points, and the invention according to claim 1 prevents the occurrence of an adsorption error in the double packed packaged blood analysis element, and the invention according to claim 2 According to the invention of claim 3, the stacked blood analysis elements that are stacked are stably inserted into the carton without the load collapsing. The invention is affected by heat in the process of thermally adhering and sealing the carton when the system is stopped. It is an object of the present invention to provide a packaged blood analysis element packaging system that can be eliminated.

[0007]

In order to solve the above-mentioned problems, the invention according to claim 1 takes out a predetermined number of the packaged blood analysis elements, which are packaged in a double pack in a moisture-proof bag, from the supply section by the rotation of the adsorption drum. A packaged blood analysis element exterior system in which the stacked packaged blood analysis elements are stacked and stored in a carton and sealed in a carton. It is characterized in that it is adsorbed and taken out from the portion of the analysis element to the adsorption drum.

Further, in the invention of claim 2, the packaged blood analysis elements, which are packaged in double in the moisture-proof bag, are taken out from the supply unit and stacked in a predetermined number, and the stacked packaged blood analysis elements are written together with the statement. In an exterior system of a packaged blood analysis element that is housed in a carton and sealed, the stacked packaged blood analysis elements that are stacked in a double band are stored in the carton by banding with the above-mentioned booklet. ..

Further, in the invention of claim 3, the packaged blood analysis elements, which are packaged in double in a moisture-proof bag, are taken out from the supply unit and stacked in a predetermined number, and the stacked packaged blood analysis elements are stored in a carton. In the packaging blood analysis element exterior system for heat-adhesive sealing, the system operation is stopped when a system abnormality is detected, and a means for heat-sealing the carton by the operation stop of the system is specified. It is characterized by retracting to the position.

[0010]

According to the first aspect of the present invention, when the packed blood analysis element which is packaged in a double pack in the moisture-proof bag is taken out from the supply section by the adsorption drum, the packed blood analysis element which is packed in a double pack is located on the removal side. The packaged blood analysis element is adsorbed and taken out from the adsorption drum by the adsorption drum. By adsorbing the packed blood analysis element avoiding the central portion of the packaged doubled blood analysis element, it can be taken out in the tangential direction to the rotation of the adsorption drum. Therefore, it is possible to stably take out the packaged blood analysis element that is packaged in double.

According to the second aspect of the present invention, the stacked double-layered packaged blood analysis element is stored in a carton by banding according to a statement, and it can be indicated without a special member. By banding, the stacked packaged blood analysis elements can be stably stored in the carton without the load collapse.

Further, in the invention of claim 3, when the abnormality of the system is detected, the operation of the system is stopped, and when the operation of the system is stopped, the means for thermally adhering and sealing the carton is retracted to a predetermined position. , The carton is prevented from being affected by heat.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of the packaging system for a packaged blood analysis element of the present invention will be described in detail below with reference to the accompanying drawings.
FIG. 1 is a schematic diagram showing the flow of products in the packaging blood analysis element exterior system.

Reference numeral 1 is a packaged blood analysis element which is packaged in a damp-proof bag 200 in a continuous manner, and a plurality of the packaged blood analysis elements 1 which are packaged in a double manner are stacked in a supply section 2. The packaged blood analysis elements 1 packaged in double are sequentially taken out one by one from the lowermost stage by the rotation of the adsorption drum 3 and stacked in a predetermined number. The stacked packaged blood analysis element 1 is transferred in this state, supplied with the thermolabel 4, and further supplied with the statement 5 to band the stacked packaged blood analysis element 1 with the statement 5. On the other hand, the carton 6 is molded in a separate step, and the packed blood analysis element 1 stacked on the molded carton 6
Is inserted and stored, and a predetermined portion of the carton 6 is heat-sealed and sealed.

FIG. 2 is a plan view showing a schematic configuration of a packaging system for a packaged blood analysis element, and FIG. 3 is a side view showing a schematic configuration of a packaging system for a packaged blood analysis element.

In this packaging system for packaged blood analysis elements, the adsorption drum 11 is provided in the packaged blood analysis element extraction section 10.
The supply unit 12 is disposed so as to face with, and a large number of packaged blood analysis elements that are two-packed in a moisture-proof bag are placed on the supply unit 12. The suction drum 11 rotates in the direction of the arrow, and the rotation of the suction drum 11 causes the packed blood analysis elements, which are packaged in a double pack in the moisture-proof bag placed on the supply unit 12, to be adsorbed from the lowermost stage and taken out to a predetermined number. Stacked.

In this state, the stacked packaged blood analysis elements are conveyed to the carton inserting section 14 by the conveying section 13. The conveying section 13 is provided with a label supplying section 15 for supplying a thermo label, and further, the carton. Noh books are supplied to the insertion section 14 from the Noh book supply section 16, and the packed blood analysis elements stacked with the noh books are banded and inserted into the carton. The carton is conveyed to the heat-bonding section 17, and the cartons accommodating the packaged blood analysis elements stacked in the heat-bonding section 17 are heat-bonded and sealed. When a system abnormality is detected in the heat-bonding portion 17, the operation of the system is stopped, and when the operation of the system is stopped, the means for heat-bonding and sealing the carton is retracted to a predetermined position.

The packaging of the packaged blood analysis element is completed at the heat-bonding section 17, but if the package has a defective packaging, it is discharged at the defective article discharging section 18, and the weight is checked at the weight checking section 19. The passed product is transported by the transport unit 20.

FIG. 4 shows the packaged blood analysis element extraction section,
FIG. 5 is a diagram showing a configuration for taking out a packaged blood analysis element that is packaged in a double pack in a moisture-proof bag, and FIG. 5 is a perspective view of a guide. In the packaged blood analysis element extraction section 10, a guide 100 is provided below the supply section 12 so as to face the suction drum 11.
As shown in FIG. 5, a stand 100a on which the double-packed packaged blood analysis element 1 can be mounted and a support for supporting the mounted double-packed blood analysis element 1 And the width of the supporting portion 100b is 2
The width is wider than the width direction of the packaged blood analysis element 1 that is continuously packaged, and the height of the support portion 100b is formed to be higher than half of the longitudinal direction of the packaged blood analysis element 1 that is continuously packaged.
The portion 1a of the packaged blood analysis element under the packaged blood analysis element 1 that is continuously packaged is covered and supported.

A separation roller 101 is disposed above the guide 100 so as to face the suction drum 11, and the separation roller 101 separates two packed blood analysis elements 1 that have been packed in a double pack so as not to be taken out. It is like this.

Therefore, when the suction drum 11 rotates in the direction of the arrow, the portion 1b of the packaged blood analysis element located above the double-packaged packaged blood analysis element 1 is adsorbed and taken out. In this way, the packaged blood analysis element 1 that is packaged in duplicate
Of the packed blood analysis element 1 on the take-out direction side, the adsorbed drum 11 is adsorbed and taken out from the adsorption drum 11, and the adsorbed drum 11 is adsorbed by avoiding the central portion of the packaged blood analysis element 1 that is packed in two. Can be taken out in the tangential direction with respect to the rotation, and the taken out of the packaged blood analysis element 1 in a double package is stable.

Hereinafter, a more specific embodiment will be described in which the portion of the packed blood analysis element on the dispensing direction side is adsorbed on the adsorption drum and is taken out. FIG. 6 is a diagram showing the dimensions of the moisture-proof bag, FIG.
Is a diagram showing the dimensions of the guide, and FIG. 8 is a diagram showing a permissible state of stacking moisture-proof bags.

The moisture-proof bag 200 has a width W and a length L in the take-out direction, and the guide 100 has a width W _G and a length L _G in the take-out direction.
Assuming that the deviation angle θ is allowed when the moisture-proof bags 200 are stacked, the following relationship of the following equation 1 is established.

[0024]

[Equation 1] That is, under the condition that the suction drum 11 having a sufficient suction pressure with respect to the weight of the moisture-proof bag 200 is used, the following Table 1 is used.
Got the result.

Regarding the moisture-proof bag, L = 100 ± 2 mm W
= 50 + 1 mm to 50-0 mm, and the deviation angle θ allowed when the moisture-proof bags are stacked is 3 deg.

The trouble rate is defined as a probability of occurrence of a mistake in taking out the moisture-proof bag once.

[0027]

[Table 1] FIG. 9 is a diagram showing a configuration in which stacked stacked blood analysis elements are packed in a carton, and FIG. 10 is a diagram showing a state in which packed packed blood analysis elements are packed in a carton. A pair of left and right upper guides 140, a picking pusher 141, and an insertion pusher 1 are provided in the carton insertion portion 14.
The packed blood analysis element 1 which is provided with 42 and is banded in the form 5 is wrapped between the pusher 141 and the insertion pusher 142. In this state, the paired left and right upper guides 140 are moved in the carton direction. It is guided and moved, and is inserted into the carton 6.

In this way, as shown in FIG. 10, the packed blood analysis element 1 double-packed in the moisture-proof bag 200 is stored in the carton 6 and double-packed in the stacked moisture-proof bag 200. The packaged blood analysis element 1 is banded with the book No. 5, and by banding it with the book No. 5 without using a special member, the stacked packaged blood analysis elements 1 can be stably placed in the carton 6 without the load collapse. Can be stored. Since this form 5 is also used as a band for preventing the collapse of the stacked packaged blood analysis elements 1, it is thinned with art paper to make it easier to wind, and the surface is coated to show the inside of the characters. Is being prevented.

FIGS. 11 to 13 show the dimensions of the packed blood analysis element 1 double-packed in the moisture-proof bag 200 and the performance document 5, and FIG. 11 shows the double-packed package in the moisture-proof bag. A plan view of the blood analysis element, FIG. 12 is XII-XII of FIG.
FIG. 13 is a cross-sectional view showing the dimensions of a packaged blood analysis element double-packed in a moisture-proof bag and the specifications. Here, assuming that the length L of the moisture-proof bag 200 in the take-out direction, the element spacing δ between the packaged blood analysis elements 1a and 1b that are continuously packaged, and the width B of the form 5, the width B of the form 5 is as follows. The range is preferable because it can surely band.

Δ <B ≦ L FIG. 14 is a view showing a constitution in which the carton is heat-bonded and sealed,
FIG. 15 is a diagram showing a temperature change when hot melt stays just below the nozzle, and FIG. 16 is a flowchart of an operation of retracting the hot melt nozzle.

In the heat-bonding section 17, the carton 6 accommodating the stacked packaged blood analysis elements 1 has a nozzle 170.
It is heat-sealed with hot melt and sealed. The nozzle 170 is mounted on the nozzle base 171, and the nozzle 1
Hot melt is supplied to the 70 from a hose 172, and a hose guide 173 prevents the hose 172 from having a curvature greater than a certain value.

The nozzle base 171 is a slide guide 17
A nozzle 171 is connected to a rod 177 of a drive cylinder 176 and is movable by expanding and contracting the rod 177.

The drive cylinder 176 is a pressure generator 178.
The pressure generator 178 is operated by the pressure supplied from the hose 179, 180 from the control device 181.
Controlled by. An operation signal from the operation panel 182 and a detection signal from the detection sensor 183 that detects passage of a product are input to the control device 181, and the pressure generation device 178 is controlled based on the detection signal or the operation panel 18 is operated.
It is supposed to be displayed on 2.

In this heat-bonded portion 17, as shown in FIG.
0 and the carton 6 are different, and assuming that the production environment temperature is t1 and the product endurance temperature is t2, at the proper nozzle distances L1 and L2 at the time of hot-melt thermal bonding, the product endurance temperature t2 is reached after a predetermined time elapses. Over the carton 6
Are affected by heat. Since the proper nozzle distance L1 is closer to the carton 6 than the proper nozzle distance L2, the product endurance temperature t2 is exceeded faster.

The proper nozzle distance is generally L1 = 10 m
m, L2 = about 20 mm. When the hot melt nozzle distance LX is L1 or less, the hot melt is scattered, and when the hot melt nozzle distance LX is L2 or more, stringing of the hot melt occurs, which is not preferable in terms of manufacturing quality.

Further, from experience, it has been found that, when a mechanical trouble occurs, the time for carrying out the trouble treatment while keeping the product on the machine is 10 minutes to 30 minutes at the maximum. In this example, when the correlation between the above two items was confirmed using an ultra-H type carton, L1 <LX <L2
Within the range of 10%, the product temperature resistance (t ₂ = 50
However, in the case of LX <L3 = 50 mm, the product temperature did not exceed t ₂ even after 30 minutes or more passed. Therefore, by using the structure of claim 3, an extra structure such as a heat shield plate can be eliminated.

Therefore, as shown in FIG. 16, step a
When the controller 181 detects an abnormality such as no packed blood analysis element 1 of the system, overload, or tact over,
Abnormality is displayed on the operation panel 182 (step b), and the operation of the system is stopped (step c). If the detection sensor 183 does not confirm the passage of the product within a certain time (step d), the controller 181 controls the pressure generator 178 to pull the rod 177 of the drive cylinder 176 to retract the nozzle (step e). ).

When the start switch is input from the operation panel 182, the control device 181 controls the pressure generation device 178 to move the rod 177 of the drive cylinder 176 forward (step f) to move the nozzle 170 to the proper position.
In this way, when the system abnormality is detected, the control device 1
When an abnormality of the system is detected at 81, the operation of the system is stopped, and when the operation of the system is stopped, the means for thermally adhering and sealing the carton 6 is retracted to a predetermined position to remove the distance L3.
By this, the product endurance temperature t2 will not be exceeded, which prevents the carton 6 from being affected by heat.

[0039]

As described above, according to the first aspect of the present invention, when the packed blood analysis element packaged in a damp-proof bag in two packs is taken out from the supply unit by the rotating adsorption drum, the packed blood pack in two packs is used. Of the analysis elements, the packaged blood analysis element on the extraction direction side is adsorbed on the adsorption drum to be ejected. It can be taken out in a tangential direction with respect to the rotation, and the taken out of the packaged blood analysis element in a double package is stable.

According to the second aspect of the present invention, since the stacked blood analysis elements stacked in a double pack are banded in a book and stored in a carton, the band is banded in a book without using a special member. As a result, the stacked blood analysis elements can be stably stored in the carton without the load collapse.

Further, in the invention of claim 3, when the abnormality of the system is detected, the operation of the system is stopped, and when the operation of the system is stopped, the means for thermally adhering the carton and sealing it is retracted to a predetermined position. Prevents the carton from being affected by heat due to system malfunctions.

[Brief description of drawings]

FIG. 1 is a schematic diagram showing a flow of products in a packaging blood analysis element exterior system.

FIG. 2 is a plan view showing a schematic configuration of an exterior system of a packaged blood analysis element.

FIG. 3 is a side view showing a schematic configuration of a packaging blood analysis element exterior system.

FIG. 4 is a diagram showing a configuration for taking out a packaged blood analysis element that is double-packed in a moisture-proof bag at a packaged blood analysis element extraction section.

FIG. 5 is a perspective view of a guide.

FIG. 6 is a diagram showing dimensions of a moisture-proof bag.

FIG. 7 is a diagram showing dimensions of a guide.

FIG. 8 is a diagram showing an allowable state of stacking moisture-proof bags.

FIG. 9 is a diagram showing a configuration in which stacked stacked packed blood analysis elements are housed in a carton.

FIG. 10 is a diagram showing a state in which a packaged blood analysis element that is double-packed is housed in a carton.

FIG. 11 is a plan view of a packaged blood analysis element that is packaged in a damp-proof bag in a double manner.

12 is a sectional view taken along line XII-XII of FIG.

FIG. 13 is a cross-sectional view showing dimensions of a packaged blood analysis element which is packaged in a damp-proof bag in a double pack and a booklet.

FIG. 14 is a diagram showing a configuration in which a carton is heat-bonded and sealed.

FIG. 15 is a diagram showing a temperature change when hot melt is retained just below a nozzle.

FIG. 16 is a flowchart of an operation for retracting the hot melt nozzle.

[Explanation of symbols]

 1 Packaged blood analysis element 2 Supply unit 3 Adsorption drum 5 Function book 6 Carton

Front Page Continuation (72) Inventor Yasuyuki Sasaki 1-1-1, Ichigaya-Kagacho, Shinjuku-ku, Tokyo Dai Nippon Printing Co., Ltd.

Claims (3)

[Claims] 1. A packaged blood analysis element, which is packaged in two lines in a moisture-proof bag, is taken out from a supply unit by rotation of an adsorption drum and stacked in a predetermined number, and the stacked packed blood analysis element is stored in a carton. In the packaging system of the packaged blood analysis element to be sealed, the packaged blood analysis element of the double packed packaged blood analysis element, wherein the portion of the packaged blood analysis element on the take-out direction side is adsorbed to an adsorption drum and taken out. Element exterior system. 2. A packed blood analysis element, which is packaged in a damp-proof bag in a double pack, is taken out from a supply unit and stacked in a predetermined number, and the stacked packed blood analysis element is stored in a carton together with a statement sheet and sealed. In the packaging system of packaging blood analysis element
A packaging system for a packaged blood analysis element, characterized in that the stacked packaged blood analysis element packaged in a double pack is stored in the carton by banding according to the booklet. 3. A packed blood analysis element, which is packaged in a damp-proof bag in a double pack, is taken out from a supply unit and stacked in a predetermined number, and the stacked packed blood analysis element is housed in a carton and heat-sealed for sealing. In the packaging blood analysis element exterior system that does, when the system abnormality is detected, the operation of the system is stopped,
An outer packaging system for a packaged blood analysis element, characterized in that a means for heat-sealing and sealing the carton is retracted to a predetermined position when the operation of the system is stopped.